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Transcript
CHAPTER 3:
Statistical Description of Data
to accompany
Introduction to Business Statistics
fourth edition, by Ronald M. Weiers
Modified from a Presentation by Priscilla Chaffe-Stengel
Donald N. Stengel
© 2002 The Wadsworth Group
Introduction
•
•
•
Covers numerical measures used as
descriptive statistics
Box plots (a.k.a. box-and-whisker plots)
are introduced (separate vignette)
Not all topics in the text will be covered
in this vignette
Chapter 3 - Learning Objectives
• Describe data using measures of central
tendency and dispersion:
– for a set of individual data values, and
– for a set of grouped data.
• Use the computer to visually represent
data.
• Use the coefficient of correlation to
measure association between two
quantitative variables.
© 2002 The Wadsworth Group
Shape – Center - Spread
•
•
•
•
•
•
When we gather data, we want to uncover the
“information” in it. One easy way to do that is to
think of: “Shape –Center- Spread”
Shape – What is the shape of the histogram?
Center – What is the mean or median?
Spread – What is the range or standard
deviation?
Chapter 2 was the graphical approach
Chapter 3 uses numerical measures
Chapter 3 - Key Terms
• Measures of
Central
Tendency,
The Center
• Mean
– µ, population; x , sample
• Weighted Mean
• Median
• Mode
(Note comparison of mean,
median, and mode)
© 2002 The Wadsworth Group
Chapter 3 - Key Terms
• Measures of
Dispersion,
The Spread
• Range
• Variance
(Note the computational difference
between s2 and s2.)
• Standard deviation
• Interquartile range
© 2002 The Wadsworth Group
Chapter 3 - Key Terms
• Measures of
Relative
Position
• Quantiles
– Quartiles
– Percentiles
Chapter 3 - Key Terms
• Measures of
Association
• Coefficient of correlation, r
– Direction of the relationship:
direct (r > 0) or inverse (r < 0)
– Strength of the relationship:
When r is close to 1 or –1, the linear
relationship between x and y is
strong. When r is close to 0, the linear
relationship between x and y is weak.
When r = 0, there is no linear
relationship between x and y.
• Coefficient of determination, r2
– The percent of total variation in y
that is explained by variation in x.
© 2002 The Wadsworth Group
The Center: Mean
• Mean
– Arithmetic average = (sum all values)/# of values
» Population: µ = (Sxi)/N
» Sample: = (Sxi)/n
x
Be sure you know how to get the value easily
from your calculator and computer softwares.
Problem: Calculate the average number of truck shipments
from the United States to five Canadian cities for the
following data given in thousands of bags:
Montreal, 64.0; Ottawa, 15.0; Toronto, 285.0;
Vancouver, 228.0; Winnipeg, 45.0
(Ans: 127.4)
© 2002 The Wadsworth Group
The Center: Weighted Mean
• When what you have is grouped data,
compute the mean using µ = (Swixi)/Swi
Problem: Calculate the average profit from truck shipments,
United States to Canada, for the following data given in
thousands of bags and profits per thousand bags:
Montreal 64.0 Ottawa 15.0
Toronto 285.0
$15.00
$13.50
$15.50
Vancouver 228.0
Winnipeg 45.0
$12.00
$14.00
(Ans: $14.04 per thous. bags)
© 2002 The Wadsworth Group
The Center: Median
• To find the median:
1. Put the data in an array.
2A. If the data set has an ODD number of numbers, the median
is the middle value.
2B. If the data set has an EVEN number of numbers, the
median is the AVERAGE of the middle two values.
(Note that the median of an even set of data values is not
necessarily a member of the set of values.)
• The median is particularly useful if there are
outliers in the data set, which otherwise tend to
sway the value of an arithmetic mean.
© 2002 The Wadsworth Group
The Center: Mode
• The mode is the most frequent value.
• While there is just one value for the
mean and one value for the median,
there may be more than one value for
the mode of a data set.
• The mode tends to be less frequently
used than the mean or the median.
© 2002 The Wadsworth Group
Shape: The “shape” of the data is
called its “distribution”?
• If mean = median = mode, the shape of the
distribution is symmetric.
• If mode < median < mean, the shape of the
distribution trails to the right, is positively skewed.
• If mean < median < mode, the shape of the
distribution trails to the left, is negatively skewed.
• Distributions of various “shapes” have different
properties and names such as the “normal”
distribution, which is also known as the “bell
curve” (among mathematicians it is called the
Gaussian Distribution).
The Spread: Range
• The range is the distance between the
smallest and the largest data value in the
set.
• Range = largest value – smallest value
• Sometimes range is reported as an
interval, anchored between the smallest
and largest data value, rather than the
actual width of that interval.
© 2002 The Wadsworth Group
The Spread: Variance
• Variance is one of the most frequently used
measures of spread,
2 S(x )2 – N2
S(x
–)
– for population, s 2  i
i

N
N
– for sample,
S(x – x)2 S(x )2 – nx 2
i
i
s2 

n –1
n–1
• The right side of each equation is often used
as a computational shortcut.
© 2002 The Wadsworth Group
The Spread: Standard Deviation
• Since variance is given in squared units,
we often find uses for the standard
deviation, which is the square root of
variance:
– for a population, s  s 2
– for a sample, s s2
Be sure you know how to get the values easily
from your calculator and computer softwares.
© 2002 The Wadsworth Group
Relative Position - Quartiles
• One of the most frequently used quantiles is the
quartile.
• Quartiles divide the values of a data set into four
subsets of equal size, each comprising 25% of the
observations.
• To find the first, second, and third quartiles:
–
–
–
–
1. Arrange the N data values into an array.
2. First quartile, Q1 = data value at position (N + 1)/4
3. Second quartile, Q2 = data value at position 2(N + 1)/4
4. Third quartile, Q3 = data value at position 3(N + 1)/4
© 2002 The Wadsworth Group